个性化心电图监测和自适应机器学习。

Personalized ECG monitoring and adaptive machine learning.

机构信息

The University of Iowa, United States of America; PinMed, Inc., United States of America.

The University of Iowa, United States of America.

出版信息

J Electrocardiol. 2024 Jan-Feb;82:131-135. doi: 10.1016/j.jelectrocard.2023.12.006. Epub 2023 Dec 13.

DOI:10.1016/j.jelectrocard.2023.12.006

PMID:38128158

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10843583/

Abstract

This non-technical review introduces key concepts in personalized ECG monitoring (pECG), which aims to optimize the detection of clinical events and their warning signs as well as the selection of alarm thresholds. We review several pECG methods, including anomaly detection and adaptive machine learning (ML), in which learning is performed sequentially as new data are collected. We describe a distributed-network multiscale pECG system to show how the computational load and time associated with adaptive ML could be optimized. In this architecture, the limited analysis of ECG waveforms is performed locally (e.g., on a smart phone) to determine a small number of clinically important ECG elements, and an adaptive ML engine is located on a remote server (Internet cloud) to determine an individual's "fingerprint" basis patterns and to detect anomalies in those patterns.

摘要

本文对个性化心电图监测（pECG）的关键概念进行了非技术性介绍，旨在优化临床事件及其警告信号的检测以及报警阈值的选择。我们回顾了几种 pECG 方法，包括异常检测和自适应机器学习（ML），在这些方法中，随着新数据的收集，学习是顺序进行的。我们描述了一个分布式网络多尺度 pECG 系统，以展示如何优化与自适应 ML 相关的计算负载和时间。在这种架构中，对心电图波形的有限分析在本地（例如在智能手机上）进行，以确定少数几个临床重要的心电图元素，而自适应 ML 引擎位于远程服务器（互联网云）上，以确定个体的“指纹”基础模式，并检测这些模式中的异常。

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